Features & Information
ENERGYSCREED is topped with the very latest in screeding technology and is often designed and specified to the customers’ requirements. Using traditional and self-levelling systems the screed topping can be laid to the tightest tolerances or performance requirements.
- Fast Drying
- SR1 tolerances available
- Warrantied
- High strength
- Suitable for any topping
- Complete with commissioning instructions
ENERGYSCREED uses the latest patent-pending thermal lightweight aggregate (TLA) system to create an environmentally friendly insulation system. Maximum airtightness with effectively zero cold bridges or thermal loss
This can be designed to achieve a variety of U Value performance levels and strength characteristics while maintaining an A2 fire rating
The fastest current solution which can significantly speed up installation times and reduces wastage to almost zero
Install circa 1,000m2 per day for typical applications
- TLA is non-combustible and has A2 fire safety classification
- Achieved El120. Test stopped at TLA request after 132 minutes
- S1 is best smoke classification achievable
- D0 is best droplet classification available
- Tested to EN 1364-1, EN 1364-1, EN 1365-1, EN 1365-2
- Here we see a “traditional” floor section, including rigid insulation, UFH, screed, and floor finish
- Rigid insulation must be cut manually which carries inherent health and safety risks, and is labour intensive
- The “offcuts” and are disposed of in site skips, which is wasteful and inefficient
- Services and conduit are not fully encapsulated by rigid board insulation
Using TLA will streamline the floor detail, as can be seen here
Will be installed much faster than traditional, manual cut, rigid board
- Using TLA will streamline the floor detail, as can be seen here
- Will be installed much faster than traditional, manual cut, rigid board insulation
- There is virtually no waste and therefore less hassle for site (as there is no requirement for skips or disposal)
- Complete encapsulation of pipes/services, resulting in improved airtightness and energy efficiency